#!/usr/bin/env -S python3 -B

#
#    Copyright (c) 2021-2021 Project CHIP Authors.
#
#    Licensed under the Apache License, Version 2.0 (the "License");
#    you may not use this file except in compliance with the License.
#    You may obtain a copy of the License at
#
#        http://www.apache.org/licenses/LICENSE-2.0
#
#    Unless required by applicable law or agreed to in writing, software
#    distributed under the License is distributed on an "AS IS" BASIS,
#    WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
#    See the License for the specific language governing permissions and
#    limitations under the License.
#

##
#    @file
# Generates CMakeLists based on gn json output.
# Converts json build instructions (see https://gn.googlesource.com/gn/+/HEAD/docs/reference.md#ide-options)
# into CMakeLists.txt compatible build instructions
#
# Usage: gn_to_cmakelists.py <json_file_name>

# gn gen out/config --ide=json --json-ide-script=//scripts/examples/gn_to_cmakelists.py

# or

# gn gen out/config --ide=json
# python gn/gn_to_cmakelists.py out/project.json
#


import functools
import itertools
import json
import os
import posixpath
import string
import sys


def CMakeStringEscape(a):
    """Escapes the string 'a' for use inside a CMake string.

    This means escaping
    '\' otherwise it may be seen as modifying the next character
    '"' otherwise it will end the string
    ';' otherwise the string becomes a list

    The following do not need to be escaped
    '#' when the lexer is in string state, this does not start a comment
    """
    return a.replace('\\', '\\\\').replace(';', '\\;').replace('"', '\\"')


def CMakeDoubleStringEscape(a):
    """Escapes the string 'a' for use inside a CMake {{response_file_contents}} string.
    """
    return a.replace('"', '\\\\\\"')


def CMakeTargetEscape(a):
    """Escapes the string 'a' for use as a CMake target name.

    CMP0037 in CMake 3.0 restricts target names to "^[A-Za-z0-9_.:+-]+$"
    The ':' is only allowed for imported targets.
    """
    def Escape(c):
        if c in string.ascii_letters or c in string.digits or c in '_.+-':
            return c
        else:
            return '__'
    return ''.join(map(Escape, a))


def RemoveByPrefix(l, prefixs):
    ret = l
    for pre in prefixs:
        ret = [x for x in ret if not x.startswith(pre)]

    return ret


def SetVariable(out, variable_name, value):
    """Sets a CMake variable."""
    out.write('set("')
    out.write(CMakeStringEscape(variable_name))
    out.write('" "')
    out.write(CMakeStringEscape(value))
    out.write('")\n')


def SetVariableList(out, variable_name, values):
    """Sets a CMake variable to a list."""
    if not values:
        SetVariable(out, variable_name, "")
        return
    if len(values) == 1:
        SetVariable(out, variable_name, values[0])
        return
    out.write('list(APPEND "')
    out.write(CMakeStringEscape(variable_name))
    out.write('"\n  "')
    out.write('"\n  "'.join([CMakeStringEscape(value) for value in values]))
    out.write('")\n')


def SetFilesProperty(output, variable, property_name, values, sep):
    """Given a set of source files, sets the given property on them."""
    output.write('set_source_files_properties(')
    WriteVariable(output, variable)
    output.write(' PROPERTIES ')
    output.write(property_name)
    output.write(' "')
    for value in values:
        output.write(CMakeStringEscape(value))
        output.write(sep)
    output.write('")\n')


def SetCurrentTargetProperty(out, property_name, values, sep=''):
    """Given a target, sets the given property."""
    out.write('set_target_properties("${target}" PROPERTIES ')
    out.write(property_name)
    out.write(' "')
    for value in values:
        out.write(CMakeStringEscape(value))
        out.write(sep)
    out.write('")\n')


def WriteVariable(output, variable_name, prepend=None):
    if prepend:
        output.write(prepend)
    output.write('${')
    output.write(variable_name)
    output.write('}')


# See GetSourceFileType in gn
source_file_types = {
    '.cc': 'cxx',
    '.cpp': 'cxx',
    '.cxx': 'cxx',
    '.m': 'objc',
    '.mm': 'objcc',
    '.c': 'c',
    '.s': 'asm',
    '.S': 'asm',
    '.asm': 'asm',
    '.o': 'obj',
    '.obj': 'obj',
}


class CMakeTargetType(object):
    def __init__(self, command, modifier, property_modifier, is_linkable):
        self.command = command
        self.modifier = modifier
        self.property_modifier = property_modifier
        self.is_linkable = is_linkable


CMakeTargetType.custom = CMakeTargetType('add_custom_target', 'SOURCES',
                                         None, False)

# See GetStringForOutputType in gn
cmake_target_types = {
    'unknown': CMakeTargetType.custom,
    'group': CMakeTargetType.custom,
    'executable': CMakeTargetType('add_executable', None, 'RUNTIME', True),
    'loadable_module': CMakeTargetType('add_library', 'MODULE', 'LIBRARY', True),
    'shared_library': CMakeTargetType('add_library', 'SHARED', 'LIBRARY', True),
    'static_library': CMakeTargetType('add_library', 'STATIC', 'ARCHIVE', True),
    'source_set': CMakeTargetType('add_library', 'OBJECT', None, False),
    'copy': CMakeTargetType.custom,
    'action': CMakeTargetType.custom,
    'action_foreach': CMakeTargetType.custom,
    'bundle_data': CMakeTargetType.custom,
    'create_bundle': CMakeTargetType.custom,
    'generated_file': CMakeTargetType.custom,
}


def FindFirstOf(s, a):
    return min(s.find(i) for i in a if i in s)


class Project(object):
    def __init__(self, project_json):
        self.targets = project_json['targets']
        build_settings = project_json['build_settings']
        self.root_path = build_settings['root_path']
        self.build_path = self.GetAbsolutePath(build_settings['build_dir'])

    def GetAbsolutePath(self, path):
        if path.startswith('//'):
            return posixpath.join(self.root_path, path[2:])
        else:
            return path

    def GetObjectSourceDependencies(self, gn_target_name, object_dependencies):
        """All OBJECT libraries whose sources have not been absorbed."""
        dependencies = self.targets[gn_target_name].get('deps', [])
        for dependency in dependencies:
            dependency_type = self.targets[dependency].get('type', None)
            if dependency_type == 'source_set':
                object_dependencies.add(dependency)
            if dependency_type not in gn_target_types_that_absorb_objects:
                self.GetObjectSourceDependencies(
                    dependency, object_dependencies)

    def GetObjectLibraryDependencies(self, gn_target_name, object_dependencies):
        """All OBJECT libraries whose libraries have not been absorbed."""
        dependencies = self.targets[gn_target_name].get('deps', [])
        for dependency in dependencies:
            dependency_type = self.targets[dependency].get('type', None)
            if dependency_type == 'source_set':
                object_dependencies.add(dependency)
                self.GetObjectLibraryDependencies(
                    dependency, object_dependencies)

    def GetCMakeTargetName(self, gn_target_name):
        # See <chromium>/src/tools/gn/label.cc#Resolve
        # //base/test:test_support(//build/toolchain/win:msvc)
        path_separator = FindFirstOf(gn_target_name, (':', '('))
        location = None
        name = None
        toolchain = None
        if not path_separator:
            location = gn_target_name[2:]
        else:
            location = gn_target_name[2:path_separator]
            toolchain_separator = gn_target_name.find('(', path_separator)
            if toolchain_separator == -1:
                name = gn_target_name[path_separator + 1:]
            else:
                if toolchain_separator > path_separator:
                    name = gn_target_name[path_separator +
                                          1:toolchain_separator]
                assert gn_target_name.endswith(')')
                toolchain = gn_target_name[toolchain_separator + 1:-1]
        assert location or name

        cmake_target_name = None
        if location.endswith('/' + name):
            cmake_target_name = location
        elif location:
            cmake_target_name = location + '_' + name
        else:
            cmake_target_name = name
        if toolchain:
            cmake_target_name += '--' + toolchain
        return CMakeTargetEscape(cmake_target_name)


class Target(object):
    def __init__(self, gn_target_name, project):
        self.gn_name = gn_target_name
        self.properties = project.targets[self.gn_name]
        self.cmake_name = project.GetCMakeTargetName(self.gn_name)
        self.gn_type = self.properties.get('type', None)
        self.cmake_type = cmake_target_types.get(self.gn_type, None)


def WriteAction(out, target, project, sources, synthetic_dependencies):
    outputs = []
    output_directories = set()
    for output in target.properties.get('outputs', []):
        output_abs_path = project.GetAbsolutePath(output)
        outputs.append(output_abs_path)
        output_directory = posixpath.dirname(output_abs_path)
        if output_directory:
            output_directories.add(output_directory)
    outputs_name = '${target}__output'
    SetVariableList(out, outputs_name, outputs)

    response_file_contents = target.properties.get(
        'response_file_contents', [])
    if len(response_file_contents) > 0:
        out.write('file(WRITE ${PROJECT_BINARY_DIR}/${target}_tmp "')
        out.write(' '.join(map(CMakeDoubleStringEscape, response_file_contents)))
        out.write('")\n')

    out.write('add_custom_command(OUTPUT ')
    WriteVariable(out, outputs_name)
    out.write('\n')

    if output_directories:
        out.write('  COMMAND ${CMAKE_COMMAND} -E make_directory "')
        out.write('" "'.join(map(CMakeStringEscape, output_directories)))
        out.write('"\n')

    script = target.properties['script']
    arguments = target.properties['args']
    arguments = [
        x if x != "{{response_file_name}}" else "${PROJECT_BINARY_DIR}/${target}_tmp" for x in arguments]

    out.write('  COMMAND python3 "')
    out.write(CMakeStringEscape(project.GetAbsolutePath(script)))
    out.write('"')
    if arguments:
        out.write('\n    "')
        out.write('"\n    "'.join(map(CMakeStringEscape, arguments)))
        out.write('"')
    out.write('\n')

    out.write('  DEPENDS ')
    for sources_type_name in sources.values():
        WriteVariable(out, sources_type_name, ' ')
    out.write('\n')

    # TODO: CMake 3.7 is introducing DEPFILE

    out.write('  WORKING_DIRECTORY "')
    out.write(CMakeStringEscape(project.build_path))
    out.write('"\n')

    out.write('  COMMENT "Action: ${target}"\n')

    out.write('  VERBATIM)\n')

    synthetic_dependencies.add(outputs_name)


def ExpandPlaceholders(source, a):
    source_dir, source_file_part = posixpath.split(source)
    source_name_part, _ = posixpath.splitext(source_file_part)
    # TODO: {{source_gen_dir}}, {{source_out_dir}}, {{response_file_name}}
    return a.replace('{{source}}', source) \
            .replace('{{source_file_part}}', source_file_part) \
            .replace('{{source_name_part}}', source_name_part) \
            .replace('{{source_dir}}', source_dir) \
            .replace('{{source_root_relative_dir}}', source_dir)


def WriteActionForEach(out, target, project, sources, synthetic_dependencies):
    all_outputs = target.properties.get('outputs', [])
    inputs = target.properties.get('sources', [])
    # TODO: consider expanding 'output_patterns' instead.
    outputs_per_input = len(all_outputs) / len(inputs)
    for count, source in enumerate(inputs):
        source_abs_path = project.GetAbsolutePath(source)

        outputs = []
        output_directories = set()
        for output in all_outputs[int(outputs_per_input * count):
                                  int(outputs_per_input * (count+1))]:
            output_abs_path = project.GetAbsolutePath(output)
            outputs.append(output_abs_path)
            output_directory = posixpath.dirname(output_abs_path)
            if output_directory:
                output_directories.add(output_directory)
        outputs_name = '${target}__output_' + str(count)
        SetVariableList(out, outputs_name, outputs)

        out.write('add_custom_command(OUTPUT ')
        WriteVariable(out, outputs_name)
        out.write('\n')

        if output_directories:
            out.write('  COMMAND ${CMAKE_COMMAND} -E make_directory "')
            out.write('" "'.join(map(CMakeStringEscape, output_directories)))
            out.write('"\n')

        script = target.properties['script']
        # TODO: need to expand {{xxx}} in arguments
        arguments = target.properties['args']
        out.write('  COMMAND python3 "')
        out.write(CMakeStringEscape(project.GetAbsolutePath(script)))
        out.write('"')
        if arguments:
            out.write('\n    "')
            expand = functools.partial(ExpandPlaceholders, source_abs_path)
            out.write('"\n    "'.join(
                map(CMakeStringEscape, map(expand, arguments))))
            out.write('"')
        out.write('\n')

        out.write('  DEPENDS')
        if 'input' in sources:
            WriteVariable(out, sources['input'], ' ')
        out.write(' "')
        out.write(CMakeStringEscape(source_abs_path))
        out.write('"\n')

        # TODO: CMake 3.7 is introducing DEPFILE

        out.write('  WORKING_DIRECTORY "')
        out.write(CMakeStringEscape(project.build_path))
        out.write('"\n')

        out.write('  COMMENT "Action ${target} on ')
        out.write(CMakeStringEscape(source_abs_path))
        out.write('"\n')

        out.write('  VERBATIM)\n')

        synthetic_dependencies.add(outputs_name)


def WriteCopy(out, target, project, sources, synthetic_dependencies):
    inputs = target.properties.get('sources', [])
    raw_outputs = target.properties.get('outputs', [])

    # TODO: consider expanding 'output_patterns' instead.
    outputs = []
    for output in raw_outputs:
        output_abs_path = project.GetAbsolutePath(output)
        outputs.append(output_abs_path)
    outputs_name = '${target}__output'
    SetVariableList(out, outputs_name, outputs)

    out.write('add_custom_command(OUTPUT ')
    WriteVariable(out, outputs_name)
    out.write('\n')

    for src, dst in zip(inputs, outputs):
        abs_src_path = CMakeStringEscape(project.GetAbsolutePath(src))
        # CMake distinguishes between copying files and copying directories but
        # gn does not. We assume if the src has a period in its name then it is
        # a file and otherwise a directory.
        if "." in os.path.basename(abs_src_path):
            out.write('  COMMAND ${CMAKE_COMMAND} -E copy "')
        else:
            out.write('  COMMAND ${CMAKE_COMMAND} -E copy_directory "')
        out.write(abs_src_path)
        out.write('" "')
        out.write(CMakeStringEscape(dst))
        out.write('"\n')

    out.write('  DEPENDS ')
    for sources_type_name in sources.values():
        WriteVariable(out, sources_type_name, ' ')
    out.write('\n')

    out.write('  WORKING_DIRECTORY "')
    out.write(CMakeStringEscape(project.build_path))
    out.write('"\n')

    out.write('  COMMENT "Copy ${target}"\n')

    out.write('  VERBATIM)\n')

    synthetic_dependencies.add(outputs_name)


def WriteCompilerFlags(out, target, project, sources):
    # Hack, set linker language to c if no c or cxx files present.
    if not 'c' in sources and not 'cxx' in sources:
        SetCurrentTargetProperty(out, 'LINKER_LANGUAGE', ['C'])

    # Mark uncompiled sources as uncompiled.
    if 'input' in sources:
        SetFilesProperty(out, sources['input'],
                         'HEADER_FILE_ONLY', ('True',), '')
    if 'other' in sources:
        SetFilesProperty(out, sources['other'],
                         'HEADER_FILE_ONLY', ('True',), '')

    # Mark object sources as linkable.
    if 'obj' in sources:
        SetFilesProperty(out, sources['obj'], 'EXTERNAL_OBJECT', ('True',), '')

    # TODO: 'output_name', 'output_dir', 'output_extension'
    # This includes using 'source_outputs' to direct compiler output.

    # should not use output_dir, or library will not in android studio folders
    output_name = target.properties.get('output_name', [])
    if output_name:
        out.write(
            'set_property(TARGET "${target}" PROPERTY OUTPUT_NAME "')
        out.write(output_name)
        out.write('")\n')
        out.write('set_property(TARGET "${target}" PROPERTY PREFIX "")\n')

    # Includes
    includes = target.properties.get('include_dirs', [])
    if includes:
        out.write('set_property(TARGET "${target}" ')
        out.write('APPEND PROPERTY INCLUDE_DIRECTORIES')
        for include_dir in includes:
            out.write('\n  "')
            out.write(project.GetAbsolutePath(include_dir))
            out.write('"')
        out.write(')\n')

    # Defines
    defines = target.properties.get('defines', [])
    if defines:
        SetCurrentTargetProperty(out, 'COMPILE_DEFINITIONS', defines, ';')

    # Compile flags
    # "arflags", "asmflags", "cflags",
    # "cflags_c", "clfags_cc", "cflags_objc", "clfags_objcc"
    # CMake does not have per target lang compile flags.
    # TODO: $<$<COMPILE_LANGUAGE:CXX>:cflags_cc style generator expression.
    #       http://public.kitware.com/Bug/view.php?id=14857

    # -march flag is gnerated by android studio, remove it here
    blockPrefixFlags = ["-march="]
    flags = []
    flags.extend(target.properties.get('cflags', []))
    flags = RemoveByPrefix(flags, blockPrefixFlags)

    cflags_asm = target.properties.get('asmflags', [])
    cflags_asm = RemoveByPrefix(cflags_asm, blockPrefixFlags)

    cflags_c = target.properties.get('cflags_c', [])
    cflags_c = RemoveByPrefix(cflags_c, blockPrefixFlags)

    cflags_cxx = target.properties.get('cflags_cc', [])
    cflags_cxx = RemoveByPrefix(cflags_cxx, blockPrefixFlags)

    cflags_objc = cflags_c[:]
    cflags_objc.extend(target.properties.get('cflags_objc', []))
    cflags_objc = RemoveByPrefix(cflags_objc, blockPrefixFlags)

    cflags_objcc = cflags_cxx[:]
    cflags_objcc.extend(target.properties.get('cflags_objcc', []))
    cflags_objcc = RemoveByPrefix(cflags_objcc, blockPrefixFlags)

    if 'c' in sources and not any(k in sources for k in ('asm', 'cxx', 'objc', 'objcc')):
        flags.extend(cflags_c)
    elif 'cxx' in sources and not any(k in sources for k in ('asm', 'c', 'objc', 'objcc')):
        flags.extend(cflags_cxx)
    elif 'objc' in sources and not any(k in sources for k in ('asm', 'c', 'cxx', 'objcc')):
        flags.extend(cflags_objc)
    elif 'objcc' in sources and not any(k in sources for k in ('asm', 'c', 'cxx', 'objc')):
        flags.extend(cflags_objcc)
    else:
        # TODO: This is broken, one cannot generally set properties on files,
        # as other targets may require different properties on the same files.
        if 'asm' in sources and cflags_asm:
            SetFilesProperty(out, sources['asm'],
                             'COMPILE_FLAGS', cflags_asm, ' ')
        if 'c' in sources and cflags_c:
            SetFilesProperty(out, sources['c'], 'COMPILE_FLAGS', cflags_c, ' ')
        if 'cxx' in sources and cflags_cxx:
            SetFilesProperty(out, sources['cxx'],
                             'COMPILE_FLAGS', cflags_cxx, ' ')
        if 'objc' in sources and cflags_objc:
            SetFilesProperty(out, sources['objc'],
                             'COMPILE_FLAGS', cflags_objc, ' ')
        if 'objcc' in sources and cflags_objcc:
            SetFilesProperty(out, sources['objcc'],
                             'COMPILE_FLAGS', cflags_objcc, ' ')
    if flags:
        SetCurrentTargetProperty(out, 'COMPILE_FLAGS', flags, ' ')

    # Linker flags
    ldflags = target.properties.get('ldflags', [])
    ldflags = RemoveByPrefix(ldflags, blockPrefixFlags)
    if ldflags:
        SetCurrentTargetProperty(out, 'LINK_FLAGS', ldflags, ' ')


gn_target_types_that_absorb_objects = (
    'executable',
    'loadable_module',
    'shared_library',
    'static_library'
)


def WriteSourceVariables(out, target, project):
    # gn separates the sheep from the goats based on file extensions.
    # A full separation is done here because of flag handing (see Compile flags).
    source_types = {'cxx': [], 'c': [], 'asm': [], 'objc': [], 'objcc': [],
                    'obj': [], 'obj_target': [], 'input': [], 'other': []}

    all_sources = target.properties.get('sources', [])

    # As of cmake 3.11 add_library must have sources. If there are
    # no sources, add empty.cpp as the file to compile.
    if len(all_sources) == 0:
        all_sources.append(posixpath.join(project.build_path, 'empty.cpp'))

    # TODO .def files on Windows
    for source in all_sources:
        _, ext = posixpath.splitext(source)
        source_abs_path = project.GetAbsolutePath(source)
        source_types[source_file_types.get(
            ext, 'other')].append(source_abs_path)

    for input_path in target.properties.get('inputs', []):
        input_abs_path = project.GetAbsolutePath(input_path)
        source_types['input'].append(input_abs_path)

    # OBJECT library dependencies need to be listed as sources.
    # Only executables and non-OBJECT libraries may reference an OBJECT library.
    # https://gitlab.kitware.com/cmake/cmake/issues/14778
    if target.gn_type in gn_target_types_that_absorb_objects:
        object_dependencies = set()
        project.GetObjectSourceDependencies(
            target.gn_name, object_dependencies)
        for dependency in object_dependencies:
            cmake_dependency_name = project.GetCMakeTargetName(dependency)
            obj_target_sources = '$<TARGET_OBJECTS:' + cmake_dependency_name + '>'
            source_types['obj_target'].append(obj_target_sources)

    sources = {}
    for source_type, sources_of_type in source_types.items():
        if sources_of_type:
            sources[source_type] = '${target}__' + source_type + '_srcs'
            SetVariableList(out, sources[source_type], sources_of_type)
    return sources


def WriteTarget(out, target, project):
    out.write('\n#')
    out.write(target.gn_name)
    out.write('\n')

    if target.cmake_type is None:
        print('Target %s has unknown target type %s, skipping.' %
              (target.gn_name,            target.gn_type))
        return

    SetVariable(out, 'target', target.cmake_name)

    sources = WriteSourceVariables(out, target, project)

    synthetic_dependencies = set()
    if target.gn_type == 'action':
        WriteAction(out, target, project, sources, synthetic_dependencies)
    if target.gn_type == 'action_foreach':
        WriteActionForEach(out, target, project, sources,
                           synthetic_dependencies)
    if target.gn_type == 'copy':
        WriteCopy(out, target, project, sources, synthetic_dependencies)

    out.write(target.cmake_type.command)
    out.write('("${target}"')
    if target.cmake_type.modifier is not None:
        out.write(' ')
        out.write(target.cmake_type.modifier)
    for sources_type_name in sources.values():
        WriteVariable(out, sources_type_name, ' ')
    if synthetic_dependencies:
        out.write(' DEPENDS')
        for synthetic_dependencie in synthetic_dependencies:
            WriteVariable(out, synthetic_dependencie, ' ')
    out.write(')\n')

    if target.cmake_type.command != 'add_custom_target':
        WriteCompilerFlags(out, target, project, sources)

    libraries = set()
    nonlibraries = set()

    dependencies = set(target.properties.get('deps', []))
    # Transitive OBJECT libraries are in sources.
    # Those sources are dependent on the OBJECT library dependencies.
    # Those sources cannot bring in library dependencies.
    object_dependencies = set()
    if target.gn_type != 'source_set':
        project.GetObjectLibraryDependencies(
            target.gn_name, object_dependencies)
    for object_dependency in object_dependencies:
        dependencies.update(project.targets.get(
            object_dependency).get('deps', []))

    for dependency in dependencies:
        gn_dependency_type = project.targets.get(
            dependency, {}).get('type', None)
        cmake_dependency_type = cmake_target_types.get(
            gn_dependency_type, None)
        cmake_dependency_name = project.GetCMakeTargetName(dependency)

        if cmake_dependency_type.command != 'add_library':
            nonlibraries.add(cmake_dependency_name)
        elif cmake_dependency_type.modifier != 'OBJECT':
            if target.cmake_type.is_linkable:
                libraries.add(cmake_dependency_name)
            else:
                nonlibraries.add(cmake_dependency_name)

    # Non-library dependencies.
    if nonlibraries:
        nonlibrarieslist = list(nonlibraries)
        nonlibrarieslist.sort()
        out.write('add_dependencies("${target}"')
        for nonlibrary in nonlibrarieslist:
            out.write('\n  "')
            out.write(nonlibrary)
            out.write('"')
        out.write(')\n')

    # Non-OBJECT library dependencies.
    combined_library_lists = [target.properties.get(
        key, []) for key in ['libs', 'frameworks']]
    external_libraries = list(itertools.chain(*combined_library_lists))
    if target.cmake_type.is_linkable and (external_libraries or libraries):
        library_dirs = target.properties.get('lib_dirs', [])
        if library_dirs:
            SetVariableList(
                out, '${target}__library_directories', library_dirs)

        system_libraries = []
        for external_library in external_libraries:
            if '/' in external_library:
                libraries.add(project.GetAbsolutePath(external_library))
            else:
                if external_library.endswith('.framework'):
                    external_library = external_library[:-len('.framework')]
                system_library = 'library__' + external_library
                if library_dirs:
                    system_library = system_library + '__for_${target}'
                out.write('find_library("')
                out.write(CMakeStringEscape(system_library))
                out.write('" "')
                out.write(CMakeStringEscape(external_library))
                out.write('"')
                if library_dirs:
                    out.write(' PATHS "')
                    WriteVariable(out, '${target}__library_directories')
                    out.write('"')
                out.write(')\n')
                system_libraries.append(system_library)
        if (target.cmake_type.command == "add_library" and target.cmake_type.modifier == "SHARED") \
                or (target.cmake_type.command == "add_executable"):
            out.write('target_link_libraries("${target}" -Wl,--start-group')
        else:
            out.write('target_link_libraries("${target}"')
        librarieslist = list(libraries)
        librarieslist.sort()
        for library in librarieslist:
            out.write('\n  "')
            out.write(CMakeStringEscape(library))
            out.write('"')
        for system_library in system_libraries:
            WriteVariable(out, system_library, '\n  "')
            out.write('"')
        if (target.cmake_type.command == "add_library" and target.cmake_type.modifier == "SHARED") \
                or (target.cmake_type.command == "add_executable"):
            out.write('\n  -Wl,--end-group')
        out.write(')\n')


def WriteProject(project):
    out = open(posixpath.join(project.build_path, 'CMakeLists.txt'), 'w+')
    out.write('# Generated by gn_to_cmake.py.\n')
    out.write('cmake_minimum_required(VERSION 3.7 FATAL_ERROR)\n')
    out.write('cmake_policy(VERSION 3.7)\n')
    out.write('project(MatterAndroid)\n\n')

    out.write('file(WRITE "')
    out.write(CMakeStringEscape(
        posixpath.join(project.build_path, "empty.cpp")))
    out.write('")\n')

    for target_name in project.targets.keys():
        out.write('\n')
        WriteTarget(out, Target(target_name, project), project)

    out.close()


def main():
    if len(sys.argv) != 2:
        print('Usage: ' + sys.argv[0] + ' <json_file_name>')
        exit(1)

    json_path = sys.argv[1]
    project = None
    with open(json_path, 'r') as json_file:
        project = json.loads(json_file.read())

    WriteProject(Project(project))


if __name__ == "__main__":
    main()
